1984
DOI: 10.1128/jvi.50.2.598-605.1984
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Independent mutations in Ad2ts111 cause degradation of cellular DNA and defective viral DNA replication

Abstract: An adenovirus mutant, Ad2tslll, has previously been shown to be temperature sensitive for viral DNA replication in vivo and also to induce degradation of cellular DNA. Soluble nuclear extracts prepared from Ad2tslll-infected HeLa cells grown at either the permissive (32°C) or the nonpermissive (39.5°C) temperature are thermolabile for elongation but not for initiation of DNA replication in vitro. Adenovirus singlestranded-DNA-binding protein purified from wild-type-infected cells can complement these extracts … Show more

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Cited by 25 publications
(28 citation statements)
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“…The adenovirus 2 mutant Ad2tslll was originally described as a mutant with a temperature-sensitive defect in viral DNA synthesis (33) and was subsequently shown to induce degradation of intracellular DNA (9). The temperature-sensitive defect in virus DNA replication was shown to be due to an alteration in the adenovirus single-stranded DNA-binding protein, and the mutation causing DNA degradation was previously localized to El (44). We have shown that this latter mutation is a single base change at nucleotide 1769 from the left end of the genome.…”
Section: Discussionmentioning
confidence: 81%
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“…The adenovirus 2 mutant Ad2tslll was originally described as a mutant with a temperature-sensitive defect in viral DNA synthesis (33) and was subsequently shown to induce degradation of intracellular DNA (9). The temperature-sensitive defect in virus DNA replication was shown to be due to an alteration in the adenovirus single-stranded DNA-binding protein, and the mutation causing DNA degradation was previously localized to El (44). We have shown that this latter mutation is a single base change at nucleotide 1769 from the left end of the genome.…”
Section: Discussionmentioning
confidence: 81%
“…Ad2tslll is an adenovirus mutant that was found to be temperature sensitive for viral DNA replication (33), which also induced the degradation of chromosomal DNA during lytic infection (9). Biochemical and genetic analysis has revealed that the complex phenotype of Ad2tslll is the result of two independent mutations, the replication defect being caused by an altered DNA-binding protein (DBP) that is encoded by early region 2A (E2A) and the DNA degradation by a mutation that has been mapped to El of the adenovirus genome (44). In addition to Ad2tslll, a number of other adenovirus mutants have been reported to cause the degradation of chromosomal DNA after infection.…”
Section: Personal Communication) (3)mentioning
confidence: 99%
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“…Although little or nothing is known about the mechanism(s) by which this protein acts in the transforming process, the Ad5 55K species is known to interact with the protein encoded by the p53 tumor suppressor gene (47), and this could represent a step in the progression to complete transformation. Likewise, many mutants with alterations in the 19K coding sequence have been shown to be defective for transformation of rat cells in vitro, leading to the general consensus that the E1B 19K protein is also required for the complete transformation of such cells (1,3,5,9,43,52,54). The mechanism by which the 19K protein might act in this process has not yet been made clear, but it is known that in productively infected human cells the main function of the protein is likely to be the protection of the input DNA from nuclease digestion (32).…”
mentioning
confidence: 99%
“…The mutations in aa 280 and 282 are in a region of the DBP that closely resembles the consensus sequence of a zinc finger (47, 48), a structure thought to be important for protein binding to double-stranded DNA (2). These two mutants, Ad2tslll (aa 280) and Ad2+ NDlts23 (aa 282), both produce DBPs that do not support DNA replication in vitro at the nonpermissive temperature (34,40). The ts23 DBP, however, supports initiation in vitro at the nonpermissive temperature at a level almost equal to that of the wild-type DBP.…”
mentioning
confidence: 99%